Fastening Device For A Conductor Rail And Contact Line System

ABSTRACT

The invention relates to a fastening device  1  for a conductor rail  2  and to a contact line system having fastening devices 1 to which the conductor rail  2  is fastened. The fastening device according to the invention is characterised in that it is in the form of a plastics component. The plastics component of the fastening device according to the invention has sliding jaws  11, 12  which enclose the conductor rail  2  laterally and can be fixed in a position in which they enclose the fastening piece  3  of the conductor rail from both sides. The fastening device  1  can be produced inexpensively by methods known from plastics processing, for example injection moulding methods. Further advantages arise from the fact that plastics material is an electrical insulator. In addition, the plastics material allows the conductor rail  2  to be adjusted in a sliding manner in the fastening device  1  before it is fastened.

The invention relates to a fastening device for a conductor rail and to a contact line system having fastening devices to which the conductor rail is fastened.

For supplying power to electrically operated trains there are known, in addition to overhead lines, conductor rails which are part of the contact line system. EP 2 255 991 A2 describes a conductor rail having a gantry support from which there protrude two tensioning arms on which clamping arms for a receiving a contact wire are formed. The tensioning arms and clamping arms enclose a space which receives connection pieces for connecting the conductor rail segments.

DE 10 2012 000 117 B3 discloses a contact line system having conductor rail segments which have, in the installed position, an upper carrier provided with a recess extending in the longitudinal direction, and allow the conductor rail segments to be fastened to crossbeams of the contact line system by means of connecting elements engaging in the recess. The connecting elements are preferably hammer-head machine screws. The known conductor rails permit fastening to crossbeams of the contact line system not only by means of hammer-head machine screws but also by means of fastening devices which have a holder enclosing the upper carrier of the conductor rail. A preferred embodiment of this holder provides plastics spacer elements for fixing the conductor rail carrier.

DE 199 13 351 C1 describes a fastening device for a conductor rail having a fastening piece which is to be inserted into the fastening device. The fastening device has jaws which enclose the fastening piece of the conductor rail. The fastening piece is fixed in the jaws by clamping screws.

All the known fastening devices for conductor rails are characterised by the fact that they consist of a metal body. The fastening devices can be made of aluminium, for example. They permit simple mounting and dismantling of the conductor rails and have proved themselves in practice. However, the relatively high production costs are a disadvantage.

The problem addressed by the invention is to provide a fastening device for a conductor rail which can be produced in large numbers at comparatively low cost and permits simple mounting and dismantling of the conductor rail. It is a further object of the invention to provide a contact line system which can be constructed at comparatively low cost and permits simple mounting and dismantling of the conductor rail.

According to the invention, the objects are achieved by the features of the independent claims. The dependent claims relate to preferred embodiments of the invention.

The fastening device according to the invention is characterised in that, unlike the known fastening devices, it is not in the form of a metal component, but rather of a plastics component. A plastics component is also understood to mean a unit which consists of a plurality of plastics parts. A plastics component is also understood as being a component which also contains one or more metal components, for example metal components for connecting the plastics parts, in particular a metal screw. It is important only that the basic constituent of the fastening device can be produced by methods known from plastics processing, for example injection moulding methods.

Although all the known fastening devices are made of metal, it has been found that producing the fastening devices from plastics material has advantages. These advantages include not only the significantly lower manufacturing costs, but also the properties which result from plastics material as an electrical insulator. Moreover, the plastics material allows the conductor rail to be slidingly adjusted in the fastening device. Placing additional spacers or sliders therebetween is therefore not necessary, which in turn simplifies the production of the fastening device and the handling thereof.

The plastics component of the fastening device according to the invention has sliding jaws which enclose the conductor rail laterally and can be fixed in a position in which they enclose the fastening piece of the conductor rail from both sides. The sliding jaws can be of different forms. It is important only that the conductor rail is fixed by the sliding jaws in a sliding manner, that is to say changes in length of the conductor rail as a result of temperature changes are possible.

In a preferred embodiment of the fastening device, the plastics component has, in the installed position, an upper part and a lower part, wherein the upper part is in the form of an insulator and the lower part forms the holder for the fastening piece of the conductor rail. The part of the plastics component that is in the form of an insulator has one or more shields or ribs for lengthening the creepage distance. Consequently, the fastening device according to the invention functions not only as a conductor rail clamp of known construction but also as an insulator. Since the lower part of the fastening device according to the invention also has the electrical properties of an insulator, the overall height of the unit as a whole can be reduced.

The sliding jaws laterally enclosing the connecting piece of the conductor rail are formed such that the conductor rail is guided in a sliding manner in the fastening piece. The sliding jaws each preferably have, in the installed position, an upper and a lower leg which are connected together via a lateral leg.

In a further preferred embodiment of the fastening device, the lower part of the plastics component has a central base body, wherein one sliding jaw is integral with the base body and the other sliding jaw can be attached to the base body. To mount the conductor rail, the rail needs only to be inserted into the fixed sliding jaw and then fixed to the loose sliding jaw. The central base body is preferably so profiled on the side facing the attachable sliding jaw, and the attachable sliding jaw is preferably so profiled on the side facing the base body, that the sliding jaw and the base body interlock. An interlocking connection of the sliding jaw and the base body is thereby also achieved, permitting simple opening and closing of the holder and secure fixing.

The attachable sliding jaw preferably has profile pieces which engage a profile piece of the central base body from above and from beneath. It is, however, also possible for the base body to have profile pieces which engage a profile piece of the attachable sliding jaw from above and from beneath.

The attachable sliding jaw is fastened to the central base body preferably using a screw, by means of which the sliding jaw and the base body are screwed together.

A further preferred embodiment of the fastening device according to the invention provides that the upper part of the plastics component in the form of an insulator consists of a plurality of insulator components. It is thus possible to use the fastening device universally.

The fastening device allows the insulator to be lengthened easily depending on the use of the fastening device, for example for short- or long-distance travel, since the insulator can be composed of a plurality of insulator components which can preferably be screwed together. To that end, each insulator component has a core having, in the installed position, an upper and lower portion, wherein the upper portion has an external thread and the lower portion has a recess having an internal thread, such that the lower portion of one insulator component can be screwed to the upper portion of the other insulator component. However, it is also possible that the upper portion, in the installed position, of the insulator component has a larger external diameter than the lower portion and is provided with a recess which has an internal thread, while the lower portion has a smaller external diameter than the upper portion and is provided with an external thread.

When only low demands are to be placed on the electrical properties of the insulator, for example for use of the fastening device for short-distance travel, it is sufficient if the insulator has only a comparatively small length and has only a single shield.

The external or internal thread of the upper portion, in the installed position, can advantageously serve, as it were, as the fastening means for mounting the fastening device on a support point. It is therefore not necessary to provide further fastening means on the fastening device, thus obtaining a particularly simple construction.

An embodiment of the invention will be described in detail below with reference to the figures, in which:

FIG. 1 is a perspective view of an embodiment of the fastening device according to the invention, the sliding jaws being screwed together,

FIG. 2 shows the fastening device of FIG. 1 with a sliding jaw removed,

FIG. 3 shows an insulator component for lengthening the insulator of the fastening device of FIG. 1, and

FIG. 4 is a perspective view of a further embodiment of the fastening device together with a conductor rail.

The fastening device 1 according to the invention is described below in the installed position, in which the fastening device is suspended from a support point (not shown). The fastening device 1 can be fastened, for example, to a crossbeam, which in turn is fastened to the ceiling of a tunnel. Such fastening systems for an overhead conductor rail contact line system are known.

FIG. 1 shows an embodiment of the fastening device 1 according to the invention, which differs from the embodiment of the fastening device 1 shown in FIG. 4 only on account of the length of the insulator. Mutually corresponding parts are therefore provided with the same reference numerals. FIG. 4 shows the fastening device 1 together with the conductor rail 2.

The conductor rail 2 (FIG. 4) consists of a plurality of parts 2X, which are interconnected at the end faces by means of connecting elements (not shown). The conductor rail 2 has, in the installed position, an upper fastening piece 3 which has laterally protruding projections 3A, 3B and is fixed in a sliding manner in a holder 18 of the fastening device 1. The fastening piece 3 is adjoined on both sides by downwardly extending legs 4A, 4B, which merge at the bottom ends into inwardly extending clamping arms 5A, 5B, by which the contact wire (not shown) of the contact line system is clampingly held.

The fastening device 1 is a plastics component which, in the present embodiment, is made of glass fibre reinforced plastics material (GFRP). The plastics component has, in the installed position, an upper part 6 and a lower part 7, which are integrally interconnected. The upper part 6 is in the form of an insulator 15, while the lower part 7 forms the holder 18 for fixing the conductor rail 2 in a sliding manner.

The lower part 7 of the plastics component has a central base body 8 having an upper round portion 9 which merges into a lower plate-like portion 10, on the side of which a sliding jaw 11 is integrally formed. The sliding jaw 11 has an upper leg 11A and a lower leg 11B, which are interconnected via a lateral leg 11C. The distance between the upper and lower legs 11A, 11B is such that the lateral projection 3A, 3B of the fastening piece 3 of the conductor rail 2 can be inserted into the sliding jaw 11 with an exact fit. The metal conductor rail is thus guided in a sliding manner in the plastics sliding jaw.

While one sliding jaw 11 is integral with the base body 8, the other sliding jaw 12 can be attached to the base body 8 for slidingly fixing the conductor rail 2, and fastened to the base body 8. FIG. 2 shows the fastening device 1 with the sliding jaw 12 removed. Like the sliding jaw 11 that is integral with the base body 8, the attachable sliding jaw 12 has an upper, a middle and a lower leg 12A, 12B, 12C which enclose the lateral projection 3A, 3B of the conductor rail.

The upper leg 12A of the attachable sliding jaw 12 has two lateral upper profile pieces 13A, 13B and a middle lower profile piece 13C, which is arranged at a spacing from the upper profile pieces 13A, 13B (FIG. 2). When the sliding jaw 12 is attached to the base body 8, the upper profile pieces 13A, 13B of the sliding jaw 12 engage a profile piece 8A of the base body 8 laterally from above, while the lower profile piece 13C of the sliding jaw 12 engages the profile piece 8A of the base body 8 in the middle from beneath. It is thus ensured that the sliding jaw 12 is seated firmly on the base body 8. The required clamping force is exerted by a screw 14, by which the sliding jaw 12 and the base body 8 are screwed firmly to one another. There is still a certain play between the sliding jaws 11, 12 and the end faces of the lateral projections 3A, 3B of the fastening piece 3 of the conductor rail 2, and so the conductor rail is mounted not in a clamped manner but in a sliding manner.

The fastening device shown in FIG. 1 is intended in particular for short-distance travel. The upper part 6 of the plastics component which forms the insulator 15 has an insulator core 16 and an insulator shield 17. The insulator core 16 of the one-piece insulator has an upper portion 16A which is provided with an external thread 16B. The upper portion 16A having the external thread 16B serves as the fastening means for mounting the fastening device 1 on a support point (not shown). For example, the upper portion 16A can be screwed to a fastening component (not shown) which has a recess having an internal thread.

For long-distance travel, higher demands are placed on the electrical properties of the insulator. In order to improve the electrical properties of the insulator, the length of the insulator can be increased.

FIG. 3 shows an insulator component 15 for lengthening the insulator of the fastening device of FIG. 1. The insulator component 15 has an insulator core 16 having an upper portion 16A and a lower portion 16C, and a shield 17. The lower portion 16C of the insulator core 16 has a recess 16D having an internal thread 16E, while the upper portion 16A has an external thread 16B. The external diameter of the upper portion 16A corresponds to the internal diameter of the recess 16D in the lower portion, the external diameter of the upper portion of the insulator core of the insulator component of FIG. 3 corresponding to the external diameter of the upper portion of the insulator core of the insulator of the fastening device of FIG. 1. In order to lengthen the insulator, the lower portion of one insulator component is screwed onto the upper portion of the other insulator component, it being possible for a plurality of insulator components to be screwed together.

FIG. 4 shows an embodiment in which a third insulator component 15 has been screwed onto the second insulator component 15. In this embodiment, the upper portion of the third insulator component forms the fastening means for mounting the fastening device on the support point (not shown). The shields 17 of the individual insulator components 15 can have different diameters. 

1. Fastening device for a conductor rail which has a fastening piece, the fastening device having a holder (18) which encloses the fastening piece of the conductor rail, characterised in that the fastening device (1) is in the form of a plastics component, the plastics component having sliding jaws (11, 12) which enclose the fastening piece of the conductor rail laterally and can be fixed in a position in which they enclose the fastening piece from both sides.
 2. Fastening device according to claim 1, characterised in that the plastics component is a plastics component made of glass fibre reinforced plastics material (GFRP).
 3. Fastening device according to either claim 1 or claim 2, characterised in that the plastics component has, in the installed position, an upper part (6) and a lower part (7), the upper part (6) being in the form of an insulator (15) which has one or more shields (17), and the lower part (7) having the sliding jaws (11, 12).
 4. Fastening device according to any of claims 1 to 3, characterised in that the sliding jaws (11, 12) each have, in the installed position, an upper and lower leg (11A, 11B; 12A, 12B) which are interconnected via a lateral leg (12C; 12C).
 5. Fastening device according to any of claims 1 to 4, characterised in that the lower part (7) of the plastics component has a central base body (8), one sliding jaw (11) being integral with the base body (8) and the other sliding jaw (12) being able to be attached to the base body (8).
 6. Fastening device according to claim 5, characterised in that the base body (8) is so profiled on the side facing the attachable sliding jaw (12), and the attachable sliding jaw (12) is so profiled on the side facing the base body (8), that the sliding jaw (12) and the base body (8) interlock.
 7. Fastening device according to claim 6, characterised in that the attachable sliding jaw (12) has profile pieces (12A, 12B, 12C) which engage a profile piece (8A) of the base body (8) from above and beneath.
 8. Fastening device according to either claim 6 or claim 7, characterised in that the attachable sliding jaw (12) and the base body (8) can be screwed together to fix the fastening piece of the conductor rail in a sliding manner.
 9. Fastening device according to any of claims 3 to 8, characterised in that the upper part (6) of the plastics component in the form of the insulator (15) has an insulator core (16) having, in the installed position, an upper portion (16A) which is provided with an external thread (16B).
 10. Fastening device according to any of claims 3 to 8, characterised in that the upper part (16A) of the plastics component in the form of an insulator consists of at least two insulator components (15), one of the at least two insulator components being integral with the lower part (7) of the plastics component.
 11. Fastening device according to claim 10, characterised in that the insulator component (15) that is integral with the lower part (7) of the plastics component has an insulator core (16) having, in the installed position, an upper portion (16A) which is provided with an external thread (16B).
 12. Fastening device according to claim 10 or 11, characterised in that the insulator component (15) that is not integral with the lower part (7) of the plastics component has an insulator core (16) having, in the installed position, a lower portion (16C) which is provided with a recess (16D) which has an internal thread (16E), such that it is possible to screw together the insulator component that is not integral with the lower part (7) of the plastics component and the insulator component that is integral with the lower portion of the insulator component.
 13. Fastening device according to claim 12, characterised in that the insulator core (16) of the insulator component (15) that is not integral with the lower part (7) of the plastics component has an upper portion (16A) having an external thread (16B), the external diameter of which corresponds to the internal diameter of the recess (16D) in the lower portion (16C) of the insulator core (16).
 14. Contact line system having fastening devices (1) according to any of claims 1 to 13, to which conductor rails (2) are fastened. 